KR910001827Y1 - Auto-tunning circuit of satellite broadcast - Google Patents

Abstract

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Description

Automatic fine tuning circuit of satellite receiver

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

5: first intermediate amplification part 6: mixer

7: second intermediate amplification part 8: FM demodulation part

9: divider 10: phase comparator

11: operational amplifier 12: variable voltage oscillator

13: comparison unit R ₁ -R ₁₀ : resistance

C ₁ -C ₄ : Capacitor Q ₁ : Transistor

x ₁ : crystal oscillation element

The present invention relates to an automatic dithering circuit of a satellite receiver in which the second intermediate frequency is tuned by feedbacking the second intermediate frequency of the satellite receiver to a reference oscillator.

The first intermediate frequency of a general satellite receiver is 950MHZ-1450MHZ, but the second intermediate frequency is 70MHZ, 134MHZ, 402MHZ, 510MHZ, 612MHZ and so on.

The reason why the intermediate frequencies are different is that there is no special standard in the country, and each manufacturer selects and uses them arbitrarily.

In the conventional satellite receiver, AUTOMATIC FlNE TUNNING (AFT) of the receiver amplifies the S-curve after FM demodulation and feeds it back to the voltage-variable oscillator. Since the center has a constant range around the center frequency, the range is limited.

Therefore, in the conventional method, frequency correction by automatic fine tuning (AFT) is possible, but there is a disadvantage in that the correction to the center frequency is not accurate.

In view of the above, the present invention compares the second intermediate frequency with the reference frequency, and if a phase difference occurs, generates an error voltage and feeds it back to the voltage variable oscillator so that the second intermediate frequency becomes the center frequency accurately. Start-up fine tuning circuit of the receiving device, the output of the second intermediate frequency amplifying unit through the main period and the phase comparator and comparator to adjust the oscillation frequency of the variable voltage oscillator so that the second intermediate frequency output from the mixer is correctly tuned. to be.

This will be described in detail with reference to the accompanying drawings.

The first intermediate frequency applied to the input terminal 1 passes through the first intermediate frequency amplifier 5 and is mixed with the output of the voltage variable oscillator 12 in the mixer 6 and then the second intermediate frequency amplifier 7. Configure to be applied to

The output of the second intermediate frequency amplifier 7 is configured to be applied to the FM demodulator 8 and to the frequency divider 9 and the output of the frequency divider 9 is connected to the crystal oscillation element X ₁ . It is configured to be applied to the comparator 13 through the comparator 10.

In addition, the output of the phase comparator 10 is applied to one terminal (-) of the operational amplifier 11 through the resistor R1 and at the same time through the resistors R ₂ (R ₃ ) and the capacitors C ₁ -C ₄ . The comparator 11 is applied to the output side of the operational amplifier 11 and the power supply B 'is applied to the other terminal (+) of the operational amplifier 11 through a resistor R ₄ (R ₅ ) and a capacitor C ₄ . 13).

At this time, when the tuning voltage is memorized for each channel, the output side potential L of the operational amplifier 11 is the intermediate potential of the output voltage conversion range of the operational amplifier 11. ) And set the channel by adjusting the tuning voltage (VT) of the input terminal (2).

After the power supply B ⁺ is applied through the resistor B ₉ and the emitter output of the transistor Q ₁ to which the tuning voltage VT is applied is applied through the resistors R _7- R ₁₀ , the operational amplifier 11 is applied. It is configured to be applied to the voltage variable oscillator 12 with the output of and the output of the voltage variable bilge generator 12 is configured to be applied to the mixer (6).

In the present invention configured as described above, the first intermediate frequency applied to the input terminal 1 is amplified by the first intermediate frequency amplification unit 5, and then one channel is selected by the mixer 6 and output as the second intermediate frequency. The second intermediate frequency is amplified by the second intermediate frequency amplifier 7 and then output as a video signal to the output terminal 3 through the FM demodulator 8.

However, in order to make the second intermediate frequency an accurate increased frequency, the output of the second intermediate frequency amplifier 7 is applied to the phase comparator 10 through the divider 9.

At this time, the frequency divider 9 divides the frequency at a predetermined ratio in order to apply the high frequency to the phase comparator 10 because the second intermediate frequency is a high frequency.

The second intermediate frequency divided by the divider 9 is applied to the phase comparator 10 so that two frequency differences are output as error voltages compared to the reference frequency oscillated by the crystal oscillation element X ₁ .

Therefore, the error voltage is applied to one terminal (-) of the operational amplifier 11 through the resistor (R ₁ ) and the other voltage terminal (+) through the resistor (R ₄ ) (R ₅ ) and the capacitor (C ₄ ) The applied power (B ⁺ ) is compared and then output through the resistor (R ₆ ) to a DC voltage.

The output voltage L of the operational amplifier 11 is applied to the voltage-variable oscillator 12 together with the tuning voltage VT of the input terminal 2 through the transistor Q ₁ to the voltage-variable half-terminal 12. By adjusting the oscillation frequency, the second intermediate frequency output from the mixer 6 is tuned to the center main fruit tree.

At this time, when the tuning voltage is memorized for each channel, the output voltage L of the operational amplifier 11 is converted into an intermediate potential of the output voltage transformer range of the operational amplifier 11. ), And adjust the tuning voltage (VT) of the input terminal (2) to set the desired channel.In the state of positive tuning, the output voltage (L) of the operational amplifier (11) However, if it is assumed that the second intermediate frequency is turned off, the error voltage is output from the phase comparator 10, so that the output voltage L of the operational amplifier 11 of the comparator 13 is changed.

Therefore, the change in the output voltage (L) of the operational amplifier 11 adjusts the oscillation frequency of the voltage-variable oscillator 12 so that the second intermediate frequency output from the mixer 6 is adjusted to be tuned.

As described above, according to the present invention, the first intermediate frequency amplifier 5 and the mixer 6 pass through the second intermediate frequency amplifier 7 and the FM demodulator 8. The output of the intermediate frequency amplifier 7 is composed of resistors R _1- R ₆ , capacitors C _1- C ₄ , and operational amplifiers 11 through a divider 9 and a phase comparator 10. After detecting the error voltage through the unit 13, the oscillation frequency of the variable voltage oscillator 12 is adjusted so that the second intermediate frequency of the mixer 6 is tuned to adjust the automatic fine adjustment (AFT) range. It is easy and accurate frequency correction by automatic fine tuning (AFT) to get a good picture.

Claims (1)

In a circuit in which an image intermediate frequency is output through a first intermediate frequency amplifier 5, a mixer 6, and a second intermediate frequency amplifier 7 and an FM demodulator 8, a second intermediate frequency amplifier ( 7) connects the phase comparator 10 to which the crystal oscillation element (X ₁ ) is connected through the divider (9) and connects the resistors (R ₁ -R ₆ ) and the capacitor (C ₁ -C ₄ ) to the phase comparator l0. And an automatic fine tuning circuit of the satellite receiver configured to be connected to the mixer 6 through the voltage variable oscillator 12 after connecting the comparator 13 including the operational amplifier 11.